src/visit/reversed.rs - third_party/github.com/petgraph/petgraph - Git at Google

 use crate::{Direction, Incoming};

 use crate::visit::{
     Data, EdgeRef, GraphBase, GraphProp, GraphRef, IntoEdgeReferences, IntoEdges,
     IntoEdgesDirected, IntoNeighbors, IntoNeighborsDirected, IntoNodeIdentifiers,
     IntoNodeReferences, NodeCompactIndexable, NodeCount, NodeIndexable, Visitable,
 };

 /// An edge-reversing graph adaptor.
 ///
 /// All edges have the opposite direction with `Reversed`.
 #[derive(Copy, Clone, Debug)]
 pub struct Reversed<G>(pub G);

 impl<G: GraphBase> GraphBase for Reversed<G> {
     type NodeId = G::NodeId;
     type EdgeId = G::EdgeId;
 }

 impl<G: GraphRef> GraphRef for Reversed<G> {}

 Data! {delegate_impl [[G], G, Reversed<G>, access0]}

 impl<G> IntoNeighbors for Reversed<G>
 where
     G: IntoNeighborsDirected,
 {
     type Neighbors = G::NeighborsDirected;
     fn neighbors(self, n: G::NodeId) -> G::NeighborsDirected {
         self.0.neighbors_directed(n, Incoming)
     }
 }

 impl<G> IntoNeighborsDirected for Reversed<G>
 where
     G: IntoNeighborsDirected,
 {
     type NeighborsDirected = G::NeighborsDirected;
     fn neighbors_directed(self, n: G::NodeId, d: Direction) -> G::NeighborsDirected {
         self.0.neighbors_directed(n, d.opposite())
     }
 }

 impl<G> IntoEdges for Reversed<G>
 where
     G: IntoEdgesDirected,
 {
     type Edges = ReversedEdges<G::EdgesDirected>;
     fn edges(self, a: Self::NodeId) -> Self::Edges {
         ReversedEdges {
             iter: self.0.edges_directed(a, Incoming),
         }
     }
 }

 impl<G> IntoEdgesDirected for Reversed<G>
 where
     G: IntoEdgesDirected,
 {
     type EdgesDirected = ReversedEdges<G::EdgesDirected>;
     fn edges_directed(self, a: Self::NodeId, dir: Direction) -> Self::Edges {
         ReversedEdges {
             iter: self.0.edges_directed(a, dir.opposite()),
         }
     }
 }

 impl<G: Visitable> Visitable for Reversed<G> {
     type Map = G::Map;
     fn visit_map(&self) -> G::Map {
         self.0.visit_map()
     }
     fn reset_map(&self, map: &mut Self::Map) {
         self.0.reset_map(map);
     }
 }

 /// A reversed edges iterator.
 pub struct ReversedEdges<I> {
     iter: I,
 }

 impl<I> Iterator for ReversedEdges<I>
 where
     I: Iterator,
     I::Item: EdgeRef,
 {
     type Item = ReversedEdgeReference<I::Item>;
     fn next(&mut self) -> Option<Self::Item> {
         self.iter.next().map(ReversedEdgeReference)
     }
 }

 /// A reversed edge reference
 #[derive(Copy, Clone, Debug)]
 pub struct ReversedEdgeReference<R>(R);

 /// An edge reference
 impl<R> EdgeRef for ReversedEdgeReference<R>
 where
     R: EdgeRef,
 {
     type NodeId = R::NodeId;
     type EdgeId = R::EdgeId;
     type Weight = R::Weight;
     fn source(&self) -> Self::NodeId {
         self.0.target()
     }
     fn target(&self) -> Self::NodeId {
         self.0.source()
     }
     fn weight(&self) -> &Self::Weight {
         self.0.weight()
     }
     fn id(&self) -> Self::EdgeId {
         self.0.id()
     }
 }

 impl<G> IntoEdgeReferences for Reversed<G>
 where
     G: IntoEdgeReferences,
 {
     type EdgeRef = ReversedEdgeReference<G::EdgeRef>;
     type EdgeReferences = ReversedEdgeReferences<G::EdgeReferences>;
     fn edge_references(self) -> Self::EdgeReferences {
         ReversedEdgeReferences {
             iter: self.0.edge_references(),
         }
     }
 }

 /// A reversed edge references iterator.
 pub struct ReversedEdgeReferences<I> {
     iter: I,
 }

 impl<I> Iterator for ReversedEdgeReferences<I>
 where
     I: Iterator,
     I::Item: EdgeRef,
 {
     type Item = ReversedEdgeReference<I::Item>;
     fn next(&mut self) -> Option<Self::Item> {
         self.iter.next().map(ReversedEdgeReference)
     }
 }

 macro_rules! access0 {
     ($e:expr) => {
         $e.0
     };
 }

 NodeIndexable! {delegate_impl [[G], G, Reversed<G>, access0]}
 NodeCompactIndexable! {delegate_impl [[G], G, Reversed<G>, access0]}
 IntoNodeIdentifiers! {delegate_impl [[G], G, Reversed<G>, access0]}
 IntoNodeReferences! {delegate_impl [[G], G, Reversed<G>, access0]}
 GraphProp! {delegate_impl [[G], G, Reversed<G>, access0]}
 NodeCount! {delegate_impl [[G], G, Reversed<G>, access0]}
	use crate::{Direction, Incoming};

	use crate::visit::{
	Data, EdgeRef, GraphBase, GraphProp, GraphRef, IntoEdgeReferences, IntoEdges,
	IntoEdgesDirected, IntoNeighbors, IntoNeighborsDirected, IntoNodeIdentifiers,
	IntoNodeReferences, NodeCompactIndexable, NodeCount, NodeIndexable, Visitable,
	};

	/// An edge-reversing graph adaptor.
	///
	/// All edges have the opposite direction with `Reversed`.
	#[derive(Copy, Clone, Debug)]
	pub struct Reversed<G>(pub G);

	impl<G: GraphBase> GraphBase for Reversed<G> {
	type NodeId = G::NodeId;
	type EdgeId = G::EdgeId;
	}

	impl<G: GraphRef> GraphRef for Reversed<G> {}

	Data! {delegate_impl [[G], G, Reversed<G>, access0]}

	impl<G> IntoNeighbors for Reversed<G>
	where
	G: IntoNeighborsDirected,
	{
	type Neighbors = G::NeighborsDirected;
	fn neighbors(self, n: G::NodeId) -> G::NeighborsDirected {
	self.0.neighbors_directed(n, Incoming)
	}
	}

	impl<G> IntoNeighborsDirected for Reversed<G>
	where
	G: IntoNeighborsDirected,
	{
	type NeighborsDirected = G::NeighborsDirected;
	fn neighbors_directed(self, n: G::NodeId, d: Direction) -> G::NeighborsDirected {
	self.0.neighbors_directed(n, d.opposite())
	}
	}

	impl<G> IntoEdges for Reversed<G>
	where
	G: IntoEdgesDirected,
	{
	type Edges = ReversedEdges<G::EdgesDirected>;
	fn edges(self, a: Self::NodeId) -> Self::Edges {
	ReversedEdges {
	iter: self.0.edges_directed(a, Incoming),
	}
	}
	}

	impl<G> IntoEdgesDirected for Reversed<G>
	where
	G: IntoEdgesDirected,
	{
	type EdgesDirected = ReversedEdges<G::EdgesDirected>;
	fn edges_directed(self, a: Self::NodeId, dir: Direction) -> Self::Edges {
	ReversedEdges {
	iter: self.0.edges_directed(a, dir.opposite()),
	}
	}
	}

	impl<G: Visitable> Visitable for Reversed<G> {
	type Map = G::Map;
	fn visit_map(&self) -> G::Map {
	self.0.visit_map()
	}
	fn reset_map(&self, map: &mut Self::Map) {
	self.0.reset_map(map);
	}
	}

	/// A reversed edges iterator.
	pub struct ReversedEdges<I> {
	iter: I,
	}

	impl<I> Iterator for ReversedEdges<I>
	where
	I: Iterator,
	I::Item: EdgeRef,
	{
	type Item = ReversedEdgeReference<I::Item>;
	fn next(&mut self) -> Option<Self::Item> {
	self.iter.next().map(ReversedEdgeReference)
	}
	}

	/// A reversed edge reference
	#[derive(Copy, Clone, Debug)]
	pub struct ReversedEdgeReference<R>(R);

	/// An edge reference
	impl<R> EdgeRef for ReversedEdgeReference<R>
	where
	R: EdgeRef,
	{
	type NodeId = R::NodeId;
	type EdgeId = R::EdgeId;
	type Weight = R::Weight;
	fn source(&self) -> Self::NodeId {
	self.0.target()
	}
	fn target(&self) -> Self::NodeId {
	self.0.source()
	}
	fn weight(&self) -> &Self::Weight {
	self.0.weight()
	}
	fn id(&self) -> Self::EdgeId {
	self.0.id()
	}
	}

	impl<G> IntoEdgeReferences for Reversed<G>
	where
	G: IntoEdgeReferences,
	{
	type EdgeRef = ReversedEdgeReference<G::EdgeRef>;
	type EdgeReferences = ReversedEdgeReferences<G::EdgeReferences>;
	fn edge_references(self) -> Self::EdgeReferences {
	ReversedEdgeReferences {
	iter: self.0.edge_references(),
	}
	}
	}

	/// A reversed edge references iterator.
	pub struct ReversedEdgeReferences<I> {
	iter: I,
	}

	impl<I> Iterator for ReversedEdgeReferences<I>
	where
	I: Iterator,
	I::Item: EdgeRef,
	{
	type Item = ReversedEdgeReference<I::Item>;
	fn next(&mut self) -> Option<Self::Item> {
	self.iter.next().map(ReversedEdgeReference)
	}
	}

	macro_rules! access0 {
	($e:expr) => {
	$e.0
	};
	}

	NodeIndexable! {delegate_impl [[G], G, Reversed<G>, access0]}
	NodeCompactIndexable! {delegate_impl [[G], G, Reversed<G>, access0]}
	IntoNodeIdentifiers! {delegate_impl [[G], G, Reversed<G>, access0]}
	IntoNodeReferences! {delegate_impl [[G], G, Reversed<G>, access0]}
	GraphProp! {delegate_impl [[G], G, Reversed<G>, access0]}
	NodeCount! {delegate_impl [[G], G, Reversed<G>, access0]}